00:00On May 26, 1983, the European Space Agency launched its first X-ray observatory into space.
00:10The spacecraft was called EXOSAT, which stands for European X-ray Observatory Satellite.
00:15The mission was entirely devoted to studying the universe by looking exclusively at X-ray radiation.
00:20Human eyes aren't capable of seeing light in X-ray wavelengths.
00:23By looking for X-rays using satellites and telescopes, astronomers can locate and study high-energy sources of radiation.
00:29This includes supernovas, active galactic nuclei, galaxy clusters, black holes, neutron stars, white dwarfs, and binary stars.
00:38EXOSAT launched on a Thor Delta rocket from Vandenberg Air Force Base in California.
00:42It was put in a highly eccentric elliptical orbit that took it around the Earth once every 90 hours.
00:48It made several big discoveries during its three years in orbit.
00:51Its most famous discovery was something called quasi-periodic oscillation in X-ray binary stars.
00:57In other words, the X-ray light coming from those stars flickers periodically with a very high precision like a ticking clock.
01:04The EXOSAT mission ended when the satellite deorbited and burned up in the atmosphere.
01:08But scientists are still analyzing the data and learning new things from it.
01:11And that's what happened on this day in space.
01:14The X-ray light comes from the Earth and the black hole.
01:17These stars are here for about half of May.
01:19The X-ray light is a very high precision of the moon, bright blue light.
01:20And that's what happened on this day in space.
01:21The Earth is a very high storyline.
01:22The North is a very high始末 of the earth.
01:23The Earth is a very high precision of its Spanish.
01:24The Earth is a very high precision of its study, which is a very high precision.
01:25The Earth is just a very high precision.
01:26The Earth is a very high precision of its lore.
01:27The Earth is a very high precision of its أن bicicópter.
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